KR101855979B1 - Apparatus and method for managing time difference of watt hour meter - Google Patents

Abstract

The present invention relates to a management apparatus which comprises: a management metering unit separately provided from a supply meter for measuring power consumption of a unit facility according to a supply time reference set by a power supplier; and a management server for collecting metering information output by the management metering unit. The management server can operate in a first mode for managing the metering information according to a management time reference set by a manager of the unit facility.

Description

[0001] APPARATUS AND METHOD FOR MANAGING TIME DIFFERENCE OF WATT HOUR METER [0002]

The present invention relates to a management apparatus and method for managing metric information output from a watt-hour meter.

In order to save the electricity consumed in a unit facility, it is necessary to know where and how much electricity is used in the unit facility.

Therefore, the manager of the unit facility has a problem that it is difficult to establish the electricity saving policy only by the meter reading data of the supply meter installed by one electric power supplier such as KEPCO, which supplies electric power, per unit facility.

Korean Patent Registration No. 1135774 discloses a watt-hour meter management system and a management method using an augmented reality. However, there is a problem that it is not helpful to establish an electricity saving policy.

Korean Patent Registration No. 1135774

The present invention relates to an apparatus and method for providing and managing friendly user metering information so as to effectively establish an electricity saving policy.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

The management apparatus of the present invention includes: a management metering unit separately provided from a supply metering unit that measures a usage power of a unit facility according to a supply time reference set by a power supplier; And a management server for collecting the metering information output from the management metering unit, wherein the management server can operate in a first mode for managing the metering information according to a management time reference set by an administrator of the unit facility .

According to the management method of the present invention, the metering information including the used power of the power consumption means provided in the unit facility is obtained according to the management time standard set by the manager of the unit facility, Wherein the control unit acquires the supply time reference from a supply meter that measures a usage power of the facility and selectively manages the metering information in a first mode or a second mode, Wherein the second mode is a management mode in which the time difference between the management time reference and the supply time reference is calculated and the metering information is stored or edited according to the supply time reference using the time difference, .

According to the management apparatus and the management method of the present invention, the metering information can be generated and managed according to the management time reference set by the manager of the unit facility, that is, the user. At this time, since the metering information is acquired by the management metering unit installed in the power consumption means within the unit facility, the user can grasp the power usage status for each element in the unit facility.

User-friendly metering information that is managed by each element and managed according to user-set management time criteria enables the user to effectively establish the electricity saving policy.

The management time criteria set by the user may be different from the supply time criteria set by the power supplier and used for billing of the electricity bill.

According to the management apparatus and the management method of the present invention, the time difference between the supply time reference and the management time reference is obtained, and the metering information can be managed as desired by the user based on the supply time reference or the management time reference using the time difference.

1 is a schematic diagram showing a management apparatus of the present invention.
2 is a conceptual diagram for explaining the operation of the management server of the present invention.
3 is a schematic view showing a state in which the supply meter measures the power consumption of the unit in accordance with the supply time reference.
4 is a schematic diagram showing a state in which the management server synchronizes the management metering section in accordance with the management time reference.
5 is a schematic diagram showing a state in which the management server acquires the time difference between the management time reference and the supply time reference using the second metering means;
6 is a flowchart illustrating a management method of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification.

1 is a schematic diagram showing a management apparatus of the present invention.

The management apparatus shown in FIG. 1 may include a management metering unit 110, a management server 130, and the like.

The management metering unit 110 may be provided separately from the supply metering unit 90 and may include a watt hour meter for measuring the usage power of the unit facility 10. [ The management metric unit 110 can measure the used power of the unit facility 10 according to the management time reference set by the administrator of the unit facility 10. [

The supply meter 90 can measure the power used by the unit 10 according to the supply time reference set by the power supplier such as KEPCO.

The management metering unit 110 includes a plurality of first metering means 111 for measuring the used power of the power consumption means 11 disposed in the unit facility 10, 2 metering means 112, as shown in FIG. At this time, the metering information output from the management metering unit 110 may include the used power of the power consumption means 11 measured by the first metering means 111. [

The management server 130 may collect the metric information output from the management metric unit 110. [ The management server 130 may operate in a first mode for managing metering information according to a management time reference set by an administrator of the unit facility 10. [ The management of the metering information in the management server 130 may include storing the metering information in the storage unit, retrieving or editing the stored metering information, or outputting the edited metering information through the display.

The management server 130 may synchronize the plurality of first metering means 111 and the second metering means 112 to the management time reference. Due to the synchronization, the management server 130, the first metering means 111 and the second metering means 112 are operated according to the same management time reference, and the time information included in the various data to be processed is managed according to the same management time reference Can be set.

The most important thing to save power energy is to measure exactly where and how much electricity is being used inside the facilities of the power users who belong to the unit facility (10). For this purpose, a plurality of watt-hour meters corresponding to the management metering unit 110 may be additionally provided for measuring the amount of power consumption of the main power consumption means 11 that uses a lot of electricity.

For convenience of management, the management metering unit 110 and the management server 130 can store, edit, or output the metering information according to the management time reference set by the administrator of the unit 10. When the management server 130 operates in the first mode, the metering information is managed according to the management standard. Therefore, various management data output from the management server 130 through the printed matter or the display is convenient for the administrator to use for power saving policy and the like.

On the other hand, the supply meter 90 installed by the power supplier to charge the electricity bill follows the supply time criteria operated by the power supplier. At this time, the supply time reference differs from the management time reference, which can be differently set for each unit facility 10 in general. Therefore, the metering information of the management metering unit 110 provided in the unit facility 10 and the metering data of the supply metering unit 90 may be difficult to be managed on the same time basis. Due to the metering information of the management metering unit 110 having different time references and the metering data of the supply metering unit 90, it may be difficult for the user to smoothly set an electricity saving policy.

2 is a conceptual diagram for explaining the operation of the management server 130 of the present invention.

The management server 130 may operate in the first mode or the second mode so that the electricity saving policy is easily established.

The first mode may be an operation mode for managing the metering information according to the management time reference Tm.

In the second mode, the time difference d between the supply time reference To and the management time reference Tm acquired through the second metering means 112 is calculated, and the metering information of the management metering unit 110 is supplied to the supply time And may be an operation mode for managing according to the reference To.

In the second mode, the management server 130 can convert the metering information obtained according to the management time reference Tm into the supply time reference To using the time difference d.

For example, the supply time reference To may have the first supply time o1 as the starting point and the second supply time o2 at which the supply setting time t1 has elapsed as the end point.

The management time reference Tm may be the end point of the second management time m2 at which the first management time m1 is the starting point and the management setting time t2 has elapsed.

The management server 130 can convert the metering information of the management metering unit 110 into the supply time base To area or convert the metering data of the supply metering unit 90 into the management time base Tm area using the time difference d.

For example, the metering information of the management metering unit 110 measured at time m1 may be processed as information measured at time o1 + d in the supply time reference To area by adding d to o1.

The management server 130 basically stores and edits the metering information of the management metering unit 110 in the management time reference Tm area, and provides the information to the user. Further, the management server 130 can convert the metering information into the supply time base To area using the time difference d, and provide it to the user. As a result, the management server 130 eliminates the difference between the billing information of the supply meter 90 installed by the power supplier and the metering information of the management metering unit 110, which is measured within the unit facility 10, It can provide the exact service required for the policy.

On the other hand, the meter reading data of the supply meter 90 measured at the time o1 may be processed as the information measured at the m1-d time point in the management time reference Tm region by subtracting d from m1. According to this, it is possible to easily estimate the detailed billing information added to each power consumption means 11 by using the billing information imposed on a unit basis.

For example, when the billing amount imposed on the unit facility 10 is Z, 70% of power is consumed in the A power consumption means 11 and 30% in the B power consumption means 11 during the corresponding billing period It can be estimated that 70% of Z is allocated to the A power consumption means 11 and 30% of Z is allocated to the B power consumption means 11. [

3 is a schematic view showing a state in which the supply meter 90 measures the power consumption of the unit 10 according to the supply time reference.

The supply meter 90 can not grasp the power consumption of the plurality of power consuming means 11 disposed in the unit facility 10 because the power meter 90 monitors the power consumption per unit facility 10. [

According to the present invention, since the first metering means 111 is provided for each of the power consumption means 11 (corresponding to a load consuming power) disposed in the unit facility 10, Can be grasped.

4 is a schematic diagram showing a state in which the management server 130 synchronizes the management metering unit 110 in accordance with the management time reference.

When a plurality of first metering means 111 are provided, the time reference of the data obtained from each of the first metering means 111 must be the same. This is also true of the second metering means 112. The management server 130 can synchronize the management metering unit 110 in accordance with the management time reference set by the administrator of the unit facility 10, that is, the user. The synchronization target may include the management server 130 as well.

Since the times of all the metering means included in the management metering unit 110 are unified based on the management time base through the synchronization process, the metering information output from each metering means can be managed consistently.

5 is a schematic diagram showing a state in which the management server 130 acquires the time difference between the management time reference and the supply time reference by using the second metering means 112. FIG.

The second metering means 112 may collect the time information of the supply meter 90 and transmit it to the management server 130.

The management server 130 can grasp the supply time reference of the supply meter 90 by using the time information of the supply meter 90. [

The management server 130 may calculate the time difference with the management time reference using the obtained supply time reference and operate in the second mode using the calculated time difference.

On the other hand, the second metering unit 112 can transmit the metering data measured by the supply metering unit 90 to the power supplier by wire or wirelessly.

The meter reading data indicating the power consumption amount of the unit facility 10 may be one having a small data amount. However, as the number of units 10 managed by the power supplier increases, the amount of total meter reading data provided to the power supplier may become enormous.

When a large amount of meter reading data is input at once, a communication delay occurs and some meter reading data may be missed in the communication delay process.

If the meter reading data is missing, an error will be incurred in calculating the charge imposed on the specific unit (10), and the system of the meter reading system may be in jeopardy due to the charge error.

A method for preventing communication delay can be provided in order to maintain the meter reading system normally. The best way to prevent the occurrence of communication delays is to reduce the amount of total meter reading data entered into the power supplier (specifically, the server of the power supplier).

A method of reducing the amount of meter reading data transmitted from each supply meter 90 by reducing the amount of meter reading data can be considered.

A second metering means 112 may be used to reduce the amount of metering data transmitted from each unit facility 10 to the power supplier.

Since the second metering means 112 is monitoring the supply metering device 90 in order to grasp the supply time metric, there is no difficulty in grasping the metering data of the supply metering device 90.

Referring back to FIG. 2, the second metering means 112 may generate meter reading data using the power consumption collected from the first point o1 to the second point o2. When the time interval from the first point o1 to the second point o2 is t1, the supply meter 90 can grasp the power consumption of the unit facility 10 at various points in the t1 section. At this time, the second metering means 112 can generate one metering data for the interval t.

The usage power value of the unit facility 10 collected from the first time point o1 to the second time point o2 according to the supply time reference may be output from the supply meter 90. [ At this time, the second metering means 112 transmits the amount of change corresponding to the difference between the used power value of the second time point o2 and the used power value of the first time point o1, instead of the used power value, to the power provider and the management server 130 .

For example, the resource usage at the first time point may be 21337 kWh and the resource usage at the second time point may be 21357 kWh. Even if only 21357 kWh is included in the meter reading data, 2 bytes (byte) are required as '0101001101101101' in order to express '21357' except the power unit in binary.

On the other hand, since the variation amount of the resource usage from the first time point to the second time point is 20 kWh, one byte (byte) is enough, such as '00010100'.

Therefore, according to the second metering means 112, the amount of metering data provided to the power supplier can be reduced to more than half, so that the communication delay due to the overload can be reliably prevented.

On the other hand, the management server 130 can grasp the supply time reference using the first point o1 or the second point o2 and use the grasped supply time reference to manage the metering information obtained from the management metering unit 110 .

6 is a flowchart illustrating a management method of the present invention.

The management method of FIG. 6 may correspond to the operation of the management server 130 shown in FIG.

The management server 130 can acquire the metering information including the usage power of the power consumption means 11 provided in the unit facility 10 according to the management time reference set by the administrator of the unit facility 10 ).

The management server 130 may obtain a supply time reference from the supply meter 90 that measures the power usage of the unit facility 10 according to the supply time criteria set by the power supplier (S 510).

The management server 130 may selectively manage the metering information by the user in the first mode or the second mode.

The first mode may be a management mode for storing or editing the metering information according to the management time reference (S 530).

The second mode may be a management mode in which the time difference between the management time reference and the supply time reference is calculated (S 540) and the metering information is stored or edited according to the supply time reference using the calculated time difference (S 550).

According to the management device and management method described above, the time difference information generated between the time of the utility meter and the reference time of the management metering unit 110 installed in the facility is separately stored, and information The use of this time difference information makes it possible to provide the accurate service by eliminating the difference between the billing information of the electric power company meter and the electric power amount information measured internally, Only the information of the installed meter can be used to reduce unnecessary calculations.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

10 ... unit facility 11 ... power consumption means
90 ... supply meter 110 ... management meter
111 ... first metering means 112 ... second metering means
130 ... management server

Claims (7)

A management metering unit provided separately from the supply metering unit when a supply metering unit for measuring the usage power of the unit facility is provided according to a supply time standard set by the power supplier;
And a management server for collecting the metering information output from the management metering unit,
Wherein the management metering unit measures a usage power of the unit facility according to a management time reference set by an administrator of the unit facility,
Wherein the management time reference is different from the supply time reference by a set time difference,
Wherein the management server converts the metering information of the management metering unit into the supply time reference area using the time difference and converts the metering data of the supply metering unit into the management time reference area.
delete The method according to claim 1,
Wherein the management server operates in a first mode or a second mode,
Wherein the first mode is an operation mode for managing the metering information according to the management time reference,
Wherein the second mode is an operation mode for calculating the time difference between the supply time reference and the management time reference and managing the metering information according to the supply time reference using the calculated time difference.
The method according to claim 1,
Wherein the management metering unit includes a plurality of first metering means for measuring a usage power of the power consumption means disposed in the unit and second metering means for obtaining the supply time metric from the supply metering,
Wherein the management server synchronizes a plurality of the first metering means and the second metering means with the management time reference.
The method according to claim 1,
Wherein the management metering unit includes first metering means for measuring a usage power of the power consumption means disposed in the unit, second metering means for acquiring the supply time metric from the supply metering,
Wherein the metering information includes a usage power of the power consumption means measured by the first metering means,
The management server calculates the time difference between the supply time reference and the management time reference acquired by the second metering means,
Wherein the management server converts the metric information obtained in accordance with the management time reference to the supply time reference using the time difference.
The method according to claim 1,
Wherein the management metering unit is provided with second metering means for transmitting metering data measured by the supply metering device to a power supplier,
When the power usage value of the unit facility collected from the first time point to the second time point is output from the supply meter in accordance with the supply time reference, the second metering means, instead of the used power value, And transmits to the power provider and the management server a change amount corresponding to a difference between the power usage value and the power usage value at the first time point,
Wherein the management server grasps the supply time reference using the first viewpoint or the second viewpoint, and uses the obtained supply time reference for managing the metering information.
Acquiring the metering information including the usage power of the power consumption means provided in the unit facility according to the management time standard set by the manager of the unit facility,
Acquiring the supply time reference from a supply meter that measures a usage power of the unit facility according to a supply time reference set by a power supplier,
Wherein the management time reference is different from the supply time reference by a set time difference,
Converting the metering information into the supply time reference area using the time difference, converting the metering data of the supply meter into the management time reference area,
Selectively manages the metering information in a first mode or a second mode,
Wherein the first mode is a management mode for storing or editing the metering information according to the management time reference,
Wherein the second mode is a management mode in which the time difference between the management time reference and the supply time reference is calculated and the metering information is stored or edited according to the supply time reference using the time difference.

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